CN104850208A

CN104850208A - Information processing method and electronic equipment

Info

Publication number: CN104850208A
Application number: CN201410056918.8A
Authority: CN
Inventors: 金正操; 刘鑫全
Original assignee: Lenovo Beijing Ltd
Current assignee: Lenovo Beijing Ltd
Priority date: 2014-02-19
Filing date: 2014-02-19
Publication date: 2015-08-19
Also published as: CN110554763A

Abstract

The invention discloses an information processing method and electronic equipment. The information processing method is applied to the electronic equipment; the electronic equipment comprises a first nonvolatile storage unit, and the first nonvolatile storage unit at least can store system running data of an operation system in running; the method comprises the following steps: acquiring a first instruction when the electronic equipment is in a first state of not running the operation system, wherein the first nonvolatile storage unit under the first state is not supplied with power; switching the electronic equipment to a second state of running the operation system based on the first instruction, wherein the first nonvolatile storage unit under the second state is supplied with power, and the first nonvolatile storage unit at least stores the system running data of the operation system in running.

Description

A kind of information processing method and electronic equipment

Technical field

The present invention relates to electronic technology field, particularly relate to a kind of information processing method and electronic equipment.

Background technology

Along with the development of science and technology, electronic technology have also been obtained development at full speed, and the kind of electronic product also gets more and more, and people have also enjoyed the various facilities that development in science and technology brings.Present people can pass through various types of electronic equipment, enjoy the comfortable life along with development in science and technology brings.Such as, the electronic equipments such as smart mobile phone, panel computer and notebook computer have become an important ingredient in people's life, user can use the electronic equipments such as smart mobile phone, panel computer and notebook computer to listen to the music, play games etc., to live the pressure brought to alleviate modern fast pace.

For saving energy consumption, for notebook computer, ACPI (ACPI, AdvancedConfiguration and Power Interface) specification defines several states of notebook computer, as normal operating conditions (being also S0 state), holding state (is also S3 state, or claim to be suspended to internal storage state) and off-mode (being also S5 state) etc., notebook computer comprises the internal storages such as dynamic RAM (being called for short again " internal memory ") and mechanical hard disk, solid state hard disc (SSD, Solid State Disk or Solid State Drive) or the external memory storage such as flash memory (Flash), because the read or write speed of external memory storage is slower, simultaneously the internal storage such as dynamic RAM cannot continue to preserve data after a loss of power, so when notebook computer is started by off-mode, the source program data of operating system to be copied to internal storage from external memory storage and runs, thus notebook computer just can enter normal operating conditions, after notebook computer is in normal operating conditions, when needs run application, the source program data of application program to be copied to internal storage from external memory storage and runs, this application program thus notebook computer brings into operation.

But the present inventor is in the process realizing the technical scheme in the embodiment of the present invention, find that above-mentioned technology at least exists following technical matters:

Because the internal storages such as dynamic RAM cannot preserve the data from storing in time being in power supply state when being in and not being powered state, so the electronic equipments such as notebook computer can cause the internal storages such as dynamic RAM to lose because of power supply state change the data stored when state switches, thus energy consumption is higher in use to cause the electronic equipments such as notebook computer.Such as, specifically, when notebook computer enters normal operating conditions by off-mode startup, to need the source program data of operating system to copy in dynamic RAM and to run, start-up time is longer, and the electric energy expended is more, and energy consumption is higher, for another example, when notebook computer enters holding state by normal operating conditions, need to be continuously the internal storages such as dynamic RAM and power, to guarantee that data are not lost, the electric energy expended is more, and energy consumption is higher.

Therefore, there is the technical matters that the energy consumption of the electronic equipments such as notebook computer is higher in prior art.

Summary of the invention

The embodiment of the present invention, by providing a kind of information processing method and electronic equipment, solves the technical matters that the energy consumption of the electronic equipments such as the notebook computer existed in prior art is higher.

The embodiment of the present invention provides a kind of information processing method on the one hand, be applied to electronic equipment, described electronic equipment comprises the first non-volatile memory cells, described first non-volatile memory cells at least can store system operation data during described operating system when operating system, described method comprises: when described electronic equipment is in the first state of not operation system, obtain the first instruction, wherein, described first non-volatile memory cells is in the state of not being powered in said first condition; Based on described first instruction, described electronic equipment switches to the second state of the described operating system of described operation, wherein, in said second condition, described first non-volatile memory cells is in the state of being powered, and at least stores described system operation data during described operating system in described first non-volatile memory cells.

Alternatively, in described electronic equipment, the read or write speed of the storage unit that read or write speed is the slowest exceedes first threshold.

Alternatively, described electronic equipment does not comprise the non-volatile memory cells of the source program data for separate, stored operating system and/or application program.

Alternatively, when storing the source program data of described operating system in described first non-volatile memory cells, described electronic equipment switches to the second state running described operating system, is specially:

Described electronic equipment runs the source program data of described operating system in described first non-volatile memory cells, thus switches to described second state.

Alternatively, described first non-volatile memory cells comprises first area and second area, and wherein, described first area is for storing the source program data of described operating system, and described second area is for storing described system operation data; Described electronic equipment runs the source program data of described operating system in described first non-volatile memory cells, be specially: described electronic equipment reads and runs in described first area the source program data of the described operating system stored, generate described system operation data, wherein, described system operation data is stored in described second area.

Alternatively, described system operation data is stored in described second area, is specially: described system operation data is stored in range of physical addresses corresponding to described second area.

Alternatively, when not storing the source program data of described operating system in described first non-volatile memory cells, described electronic equipment switches to the second state running described operating system, specifically comprise: described electronic equipment passes through data-interface, obtain the source program data of described operating system, and in described first non-volatile memory cells, run the source program data of described operating system, thus switch to described second state.

Alternatively, described electronic equipment passes through data-interface, obtain the source program data of described operating system, specifically comprise: described electronic equipment is connected with a memory storage by described data-interface, and read in described memory storage the source program data of the described operating system stored, thus obtain the source program data of described operating system; Or described electronic equipment is established a communications link by described data-interface and another electronic equipment, and received the source program data of the described operating system that another electronic equipment described sends by described communication connection, thus obtain the source program data of described operating system.

Alternatively, switch to the second state running described operating system at described electronic equipment, and after the connection of disconnection and described memory storage or another electronic equipment described, described electronic equipment maintains described second state.

Alternatively, switch to the second state running described operating system at described electronic equipment, and after the connection of disconnection and described memory storage or another electronic equipment described, described method also comprises: in said second condition, obtains the second instruction; Based on described second instruction, described electronic equipment switches to the third state not running described operating system, wherein, under the described third state, described first non-volatile memory cells is in the state of not being powered, and stores described system operation data during described operating system in described first non-volatile memory cells; Under the described third state, obtain the 3rd instruction; According to described 3rd instruction, according to described system operation data during the described operating system stored in described first non-volatile memory cells, described electronic equipment switches to described second state.

Alternatively, be in described first state at described electronic equipment, and when storing described system operation data in described first non-volatile memory cells, described electronic equipment switches to the second state running described operating system, is specially:

According to the described system operation data stored in described first non-volatile memory cells, described electronic equipment switches to described second state.

Alternatively, described based on described first instruction, described electronic equipment switch to run described operating system the second state after, described method also comprises: described electronic equipment be in described second state and described operating system to first mode time, obtain the 4th instruction; Based on described 4th instruction, described electronic equipment switches to the 4th state of not operation system, wherein, under described 4th state, described first non-volatile memory cells is in the state of not being powered, the first mode information of described operating system when moving to described first mode is stored in described first non-volatile memory cells, to make described electronic equipment when switching to described second state by described 4th state, can according to described first mode information by described operating system extremely described first mode.

Alternatively, described electronic equipment also comprises the second non-volatile memory cells, the source program data of described operating system is stored in described second non-volatile memory cells, the read or write speed of described second non-volatile memory cells is lower than described first non-volatile memory cells, wherein, in said first condition, described second non-volatile memory cells is in the state of not being powered, in said second condition, described second non-volatile memory cells is in the state of being powered.

Alternatively, the source program data of described operating system is stored in described first non-volatile memory cells, when described electronic equipment meets a predetermined condition, described method also comprises: the source program data of deleting the described operating system stored in described first non-volatile memory cells, and the source program data of the described operating system stored in described second non-volatile memory cells is copied in described first non-volatile memory cells.

The embodiment of the present invention also provides a kind of electronic equipment on the other hand, and comprising: the first non-volatile memory cells, described first non-volatile memory cells at least can store system operation data during described operating system when operating system, processing unit, be connected with described first non-volatile memory cells, for when being in the first state of not operation system at described electronic equipment, obtain the first instruction, wherein, described first non-volatile memory cells is in the state of not being powered in said first condition, and based on described first instruction, described electronic equipment switches to the second state of the described operating system of described operation, wherein, in said second condition, described first non-volatile memory cells is in the state of being powered, described system operation data during described operating system is at least stored in described first non-volatile memory cells.

Alternatively, described processing unit specifically for running the source program data of described operating system in described first non-volatile memory cells, thus switches to described second state.

Alternatively, described first non-volatile memory cells comprises first area and second area, and wherein, described first area is for storing the source program data of described operating system, and described second area is for storing described system operation data;

Described processing unit is specifically for reading and running in described first area the source program data of the described operating system stored, and generate described system operation data, wherein, described system operation data is stored in described second area.

Alternatively, described processing unit is specifically for being stored in described system operation data in range of physical addresses corresponding to described second area.

Alternatively, when not storing the source program data of described operating system in described first non-volatile memory cells, described processing unit is specifically for passing through data-interface, obtain the source program data of described operating system, and in described first non-volatile memory cells, run the source program data of described operating system, thus switch to described second state.

Alternatively, described processing unit is specifically for being connected with a memory storage by described data-interface, and read in described memory storage the source program data of the described operating system stored, thus obtain the source program data of described operating system, or established a communications link by described data-interface and another electronic equipment, and received the source program data of the described operating system that another electronic equipment described sends by described communication connection, thus obtain the source program data of described operating system.

Alternatively, the second state running described operating system is switched at described electronic equipment, and after the connection of disconnection and described memory storage or another electronic equipment described, described processing unit is specifically in said second condition, obtain the second instruction, and based on described second instruction, described electronic equipment switches to the third state not running described operating system, wherein, under the described third state, described first non-volatile memory cells is in the state of not being powered, described system operation data during described operating system is stored in described first non-volatile memory cells, and under the described third state, obtain the 3rd instruction, and according to described 3rd instruction, according to described system operation data during the described operating system stored in described first non-volatile memory cells, described electronic equipment switches to described second state.

Alternatively, described first state is at described electronic equipment, and when storing described system operation data in described first non-volatile memory cells, described processing unit is specifically for according to the described system operation data stored in described first non-volatile memory cells, and described electronic equipment switches to described second state.

Alternatively, described based on described first instruction, after described electronic equipment switches to the second state running described operating system, described processing unit concrete also for be in described second state at described electronic equipment and described operating system to first mode time, obtain the 4th instruction, and based on described 4th instruction, described electronic equipment switches to the 4th state of not operation system, wherein, under described 4th state, described first non-volatile memory cells is in the state of not being powered, the first mode information of described operating system when moving to described first mode is stored in described first non-volatile memory cells, to make described electronic equipment when switching to described second state by described 4th state, can according to described first mode information by described operating system extremely described first mode.

Alternatively, the source program data of described operating system is stored in described first non-volatile memory cells, when described electronic equipment meets a predetermined condition, described processing unit is concrete also for deleting the source program data of the described operating system stored in described first non-volatile memory cells, and the source program data of the described operating system stored in described second non-volatile memory cells is copied in described first non-volatile memory cells.

The present invention also provides a kind of electronic equipment on the other hand, comprising: casing, circuit board, is arranged in described casing, first nonvolatile memory, is arranged in described casing, and described first nonvolatile memory at least can store system operation data during described operating system when operating system, processor, be arranged on described circuit, be connected with described first nonvolatile memory, for when described electronic equipment is in the first state of not operation system, obtain the first instruction, wherein, described first nonvolatile memory is in the state of not being powered in said first condition, and based on described first instruction, described electronic equipment switches to the second state of the described operating system of described operation, wherein, in said second condition, described first nonvolatile memory is in the state of being powered, described system operation data during described operating system is at least stored in described first nonvolatile memory.

The one or more technical schemes provided in the embodiment of the present invention, at least have following technique effect or advantage:

1, due to when electronic equipment is in the first state, first non-volatile memory cells is in the state of not being powered, and store this electronic equipment in the first non-volatile memory cells and switch to data needed for the second state, so after acquisition first instruction, electronic equipment can switch to the data needed for the second state according to this electronic equipment stored in the first instruction and the first non-volatile memory cells, thus switch to the second state, avoid the internal storages such as dynamic RAM of the prior art because power supply state change and the defect of obliterated data, make electronic equipment in the process being in the first state, do not need to be continuously the first non-volatile memory cells to power, the data stored in the first non-volatile memory cells just can be kept not lose, so electronic equipment is switching to normal operating conditions by off-mode, or when switching to normal operating conditions by holding state, electronic equipment can both switch according to the data stored in the first non-volatile memory cells, and the data not needing lasting consume electric power to keep storing in the first non-volatile memory cells are not lost, so the technical matters that the energy consumption solving the electronic equipments such as the notebook computer existed in prior art is higher, achieve the technique effect of the energy consumption reducing the electronic equipments such as notebook computer.

2, owing to reducing the energy consumption of the electronic equipments such as notebook computer, so for mobile electronic equipments such as notebook computer, panel computer and smart mobile phones, improve the lasting service time of these mobile electronic equipments, and save the time that user charges for these mobile electronic equipments, thus further increase the experience of user.

Accompanying drawing explanation

The process flow diagram of the information processing method that Fig. 1 provides for the embodiment of the present invention;

The functional block diagram of the electronic equipment that Fig. 2 provides for the embodiment of the present invention;

The entity module figure of the electronic equipment that Fig. 3 provides for the embodiment of the present invention.

Embodiment

Technical scheme in the embodiment of the present invention is for solving the problems of the technologies described above, and general thought is as follows:

The embodiment of the present invention provides a kind of information processing method, the method is applied to an electronic equipment, this electronic equipment comprises the first non-volatile memory cells, this first non-volatile memory cells at least can store system operation data during this operating system when the operating system of this electronic equipment, the method comprises:

When electronic equipment is in the first state of not operation system, obtain the first instruction, wherein, the first non-volatile memory cells is in the state of not being powered in a first state; First state can be such as the off-mode of ACPI specification definition, or holding state.

Based on the first instruction, electronic equipment switches to the second state of operation system, wherein, in the second condition, first non-volatile memory cells is in the state of being powered, and at least stores system operation data during operating system in the first non-volatile memory cells; Second state can be such as the normal operating conditions of ACPI specification definition.

Can be found out by above-mentioned part, due to when electronic equipment is in the first state, first non-volatile memory cells is in the state of not being powered, and store this electronic equipment in the first non-volatile memory cells and switch to data needed for the second state, so after acquisition first instruction, electronic equipment can switch to the data needed for the second state according to this electronic equipment stored in the first instruction and the first non-volatile memory cells, thus switch to the second state, avoid the internal storages such as dynamic RAM of the prior art because power supply state change and the defect of obliterated data, make electronic equipment in the process being in the first state, do not need to be continuously the first non-volatile memory cells to power, the data stored in the first non-volatile memory cells just can be kept not lose, so electronic equipment is switching to normal operating conditions by off-mode, or when switching to normal operating conditions by holding state, electronic equipment can both switch according to the data stored in the first non-volatile memory cells, and the data not needing lasting consume electric power to keep storing in the first non-volatile memory cells are not lost, so the technical matters that the energy consumption solving the electronic equipments such as the notebook computer existed in prior art is higher, achieve the technique effect of the energy consumption reducing the electronic equipments such as notebook computer.

Further, owing to reducing the energy consumption of the electronic equipments such as notebook computer, so for mobile electronic equipments such as notebook computer, panel computer and smart mobile phones, improve the lasting service time of these mobile electronic equipments, and save the time that user charges for these mobile electronic equipments, thus further increase the experience of user.

In order to better understand technique scheme, below in conjunction with Figure of description and concrete embodiment, technique scheme is described in detail.

In actual applications, this electronic equipment can be notebook computer, desktop computer, also can be smart mobile phone, panel computer, do not limit at this, in ensuing part, will be a notebook computer for this electronic equipment, carry out description of illustrating in detail.

In specific implementation process, notebook computer is except comprising the first non-volatile memory cells, second non-volatile memory cells of read or write speed lower than the first non-volatile memory cells can also be comprised, second non-volatile memory cells can be specifically mechanical hard disk, solid state hard disc (SSD, Solid State Disk or Solid State Drive) or the external memory storage such as flash memory (Flash), in ensuing part, to not comprise according to notebook computer respectively and comprise the second non-volatile memory cells two kinds of situations to introduce the technical scheme in the embodiment of the present invention.

Situation one: do not comprise the second non-volatile memory cells in notebook computer.

In the present embodiment, notebook computer comprises the first non-volatile memory cells, this first non-volatile memory cells at least can store system operation data during this operating system when operating system, it should be noted that, " this first non-volatile memory cells at least can store system operation data during this operating system when operating system " that this place is introduced, specifically refer to when notebook computer is in normal operating conditions, notebook computer can run this operating system in this first non-volatile memory cells, and the system operation data produced when running this operating system is stored in this first non-volatile memory cells, that is, first non-volatile memory cells belongs to the internal storage (being also internal memory) of notebook computer, can by the storage space of the processing unit of notebook computer also i.e. central processing unit (CPU) directly address.

In specific implementation process, first non-volatile memory cells can be such as resistance internal memory (MRAM, Magnetic Random Access Memory), also can be adopt non-volatility memory (NVM, Non-Volatile Memory) storer of technology and static RAM (SRAM, Static RAM) this combination, do not limit at this.

In the implementation of the first non-volatile memory cells, resistance internal memory adopts two pieces of nano-level iron magnets, interface clamps with a nonmagnetic metal layer or insulation course the structure of a metallic conductor, it is by change two pieces of ferromagnetic directions, the magnetoresistance (magnetoresistance) of conductor below will change, resistance is once become large, will be diminished by its electric current, vice versa, therefore, only need judge that current values when powering up just can judge that two kinds of different conditions of ferromagnetic magnetic field direction are distinguished " 0 " and " 1 " with a triode, namely magnetic resistance resistance store data with this, because ferromagnetic magnetic almost disappears never, therefore resistance internal memory almost can rewrite unlimitedly.And ferromagnetic magnetic also can not disappear due to power down, thus it and unlike dynamic random stored memory, there is volatility, but can to continue to keep its content after power down.

In the another kind of implementation of the first non-volatile memory cells, non-volatility memory can be such as Erasable Programmable Read Only Memory EPROM (EPROM, Erasable Programmable Read-OnlyMemory), band EEPROM (Electrically Erasable Programmable Read Only Memo) (EEPROM, Electrically ErasableProgrammable Read-Only Memory) etc., electronic equipment is before static RAM power down, utilize non-volatility memory to store the data in static RAM, thus can upper once start in, by the data Replica in non-volatility memory in static RAM, then the function of non-volatile memory cells is realized, just repeat no more at this.

Certainly, by the introduction of the present embodiment, the technician belonging to this area can according to actual conditions, adopt other modes that is suitable, that can adopt, to meet the needs of actual conditions, have just repeated no more at this.

In the present embodiment, in notebook computer, the read or write speed of the storage unit that read or write speed is the slowest exceedes first threshold, this first threshold can be the highest read or write speed of the external memory storage of notebook computer, such as, the read or write speed of mechanical hard disk is generally at about 150M/S, and the read or write speed of solid state hard disc is slightly fast, read or write speed scope is generally between 200M/S ~ 500M/S, and the read or write speed of internal memory is fast especially, general at more than 5G/S, even higher, the concrete numerical value that therefore can arrange first threshold is 1G/S or 2G/S etc., certainly, in actual applications, by the introduction of the embodiment of the present invention, technician belonging to this area can according to actual conditions, the concrete numerical value of first threshold is set suitably, to meet the needs of actual conditions, just repeat no more at this.

In the present embodiment, notebook computer does not comprise the non-volatile memory cells of the source program data for separate, stored operating system and/or application program, specifically, non-volatile memory cells in the notebook computer that the embodiment of the present invention provides, not comprising this class non-volatile memory cells of the source program data for storing operating system and/or application program such as mechanical hard disk, solid state hard disc or flash memory, namely not comprising aforementioned introduction yet

In ensuing part, to store the source program data of this operating system according to the first non-volatile memory cells, and the source program data not storing this operating system in the first non-volatile memory cells introduces the information processing method that the embodiment of the present invention provides respectively.

Please refer to Fig. 1, Fig. 1 is the process flow diagram of the information processing method that the embodiment of the present invention provides, and as shown in Figure 1, the method comprises:

S1: when electronic equipment is in the first state of not operation system, obtain the first instruction, wherein, the first non-volatile memory cells is in the state of not being powered in a first state;

S2: based on the first instruction, electronic equipment switches to the second state of operation system, wherein, in the second condition, first non-volatile memory cells is in the state of being powered, and at least stores system operation data during operating system in the first non-volatile memory cells.

The first situation: the source program data storing this operating system in the first non-volatile memory cells.

A Windows system (operating system of Microsoft's exploitation) is specially for this operating system, certainly, also can be other system, operating system as linux system (a kind of operating system of increasing income), the exploitation of MAC(Apple) etc., store the source program data of this Windows system in the first non-volatile memory cells.

Please continue to refer to Fig. 1, in step sl, when electronic equipment is in the first state not running Windows system, during as off-mode, notebook computer obtains the first instruction, in the first state, first non-volatile memory cells is in the state of not being powered, but because the first non-volatile memory cells still can guarantee that when not being powered state the data self stored are not lost, so now still store the source program data of this Windows system in the first non-volatile memory cells, also namely storing in this first non-volatile memory cells makes notebook computer switch to the necessary data of the second state.

After obtaining the first instruction by step S1, the information processing method that the embodiment of the present invention provides enters step S2, that is: based on the first instruction, electronic equipment switches to the second state of operation system.Specifically, can be that notebook computer is after receiving the first instruction, namely the source program data of this Windows system stored in the first non-volatile memory cells is read, and in the first non-volatile memory cells, run the source program data of this Windows system, thus switching to the second state of operation system, the second state can be specifically the normal operating conditions of notebook computer.

Can find out, because notebook computer is being switched in the process of the second state by the first state, it is the source program data directly reading this Windows system stored in the first non-volatile memory cells, thus avoid in prior art and need the source program data of this Windows system to copy to from external memory storages such as mechanical hard disk, solid state hard disc or flash memories the time that the internal storages such as dynamic RAM rerun, decrease the start-up time of system, thus realize the technique effect reducing the energy consumption of notebook computer.

Further, owing to decreasing the start-up time of system, so decrease user to wait for that the system of notebook computer starts to the second state simultaneously, be also the time of normal operating conditions, thus achieve the technique effect improving Consumer's Experience.

In specific implementation process, first non-volatile memory cells can comprise first area and second area, wherein, first area is for storing the source program data of operating system, second area is used for storage system service data, notebook computer switches to the second state running Windows system, specifically, can read and run the source program data of the Windows system stored in first area by notebook computer, and generation system service data, wherein, system operation data is stored in the second area of the first non-volatile memory cells.

Specifically, when notebook computer runs, the range of physical addresses of the second area of the first non-volatile memory cells can be determined, such as, notebook computer or user are provided with the size of second area, notebook computer namely can according to this instruction, determine the concrete physical address of first area in the first non-volatile memory cells, and the concrete physical address of second area, thus when notebook computer reads and runs the source program data of the Windows system stored in first area, system operation data during this Windows system cloud gray model is stored in range of physical addresses corresponding to second area.

Certainly, in specific implementation process, because the first area of the first non-volatile memory cells is for storing the source program data of operating system, second area is used for storage system service data, so when electronic equipment is in the second state of operation system, first area is for the source program data of the source program data and/or application program that store operating system, second area may be used for store operating system time system operation data and/or application program run time application service data, and, in order to ensure the normal operation of electronic equipment, when electronic equipment is in the second state of operation system, only store the source program data of operating system and/or the source program data of application program in the first region, application service data when system operation data simultaneously only when second area stores operating system and/or application program are run.

Specifically, for the memory capacity of the first non-volatile memory cells of notebook computer for 100G, can be the memory capacity of first area distribution 90G, and distribute the memory capacity of 10G for second area, like this, when notebook computer is in the second state of operation system, the source program data of the operating system of notebook computer can be stored in the first area of notebook computer, and in first area, store the source program data of application program, simultaneously, the system operation data during operating system of notebook computer is stored in second area, and the application service data stored in second area when application program is run, and, in order to ensure the normal operation of notebook computer, notebook computer is when needing the source program data of operating system or the source program data of application program to store, such as, when obtaining the source program data of operating system or the source program data of application program from network or in other memory storages and need to be stored in notebook computer the machine, only can be stored in the first area of the first non-volatile memory cells, and can not be stored in the second area of the first non-volatile memory cells, thus avoid the storage space of the second area occupying the first non-volatile memory cells, ensure can not reduce for the storage space of storage system service data and application service data in notebook computer, then the normal operation of notebook computer is ensured.

Certainly, in specific implementation process, in order to strengthen serviceability when electronic equipment runs further, can the memory capacity of first area and second area in dynamic assignment first non-volatile memory cells, such as, lack of memory capacity in first area and exist in second area not by use storage space time, first area can not be changed to by a part of storage space in the storage space that uses by second area, or exist in the first region not by the storage space that uses and the lack of memory capacity of second area time, second area can not be changed to by a part of storage space in the storage space that uses by first area.

Specifically, for the memory capacity of the first non-volatile memory cells of notebook computer for 100G, for the memory capacity of 90G is distributed in first area, and distribute the memory capacity of 10G for second area, the source program data of operating system simultaneously stored in first area and the data volume of the source program of application program are 89G, namely be also not 1G by the storage space used in first area, and be not set as 6G by the storage space used in second area, and now need storage data volume to be the source program data of the application program of 5G, then can not changed to first area by the 5G storage space in the 6G storage space that uses by second area, thus namely can store down the source program data that this data volume is the application program of 5G, similarly, to set in first area not by the storage space that uses as 40G, be not 5G by the storage space used in second area, and the data volume now needing operation one to apply service data is the application program of 10G, then can not changed to second area by the 8G storage space in the 40G storage space that uses by first area, so namely, the data volume normally can running this application service data is the application program of 10G.It should be noted that, the numeral enumerated in the present embodiment is a citing, by the introduction of the present embodiment, technician belonging to this area can according to actual conditions, for the memory capacity of dynamic assignment first area and second area arranges suitable numerical value, to meet the needs of actual conditions, just repeat no more at this.

The second situation: the source program data not storing this operating system in the first non-volatile memory cells.

Be specially a linux system for this operating system, in the first non-volatile memory cells, do not store the source program data of this linux system.

In step sl, under the first state that notebook computer is in not operation linux system, during as off-mode, notebook computer obtains the first instruction, in the first state, first non-volatile memory cells is in the state of not being powered, and does not also store the source program data of this linux system in the first non-volatile memory cells simultaneously.

After obtaining the first instruction by step S1, the information processing method that the embodiment of the present invention provides enters step S2, that is: based on the first instruction, electronic equipment switches to the second state of operation system.Specifically, can be notebook computer by a data-interface, obtain the source program data of this linux system, and run the source program data of this operating system in the first non-volatile memory cells, notebook computer thus switch to the second state.

In specific implementation process, notebook computer passes through data-interface, can be such as USB (universal serial bus) (USB interface) or Serial Advanced Technology Attachment (SATA, Serial Advanced TechnologyAttachmen) interface, be connected with a memory storage, this memory storage can be such as a portable hard drive or USB flash disk, then reads the source program data of the operating system stored in this storage, thus can obtain the source program data of this linux system.

Or, notebook computer passes through data-interface, the RJ-45 interface of such as Ethernet, the elemental network card (BNC of thin coaxial cable, Base Network Card) interface and Fiber Distributed Data Interface (FDDI, Fiber Distributing Data Interface) etc., with another electronic equipment such as a server or another notebook computer, establish a communications link, and received the source program data of the linux system that this electronic equipment sends by this communication connection, thus obtain the source program data of linux system.

Certainly, by the introduction of the present embodiment, the technician belonging to this area can according to actual conditions, and the mode selecting other suitable, to obtain the source program data of operating system, has just repeated no more at this.

Certainly, it should be noted that, because the operating system of now notebook computer not yet starts, so the source program data for guiding notebook computer to get operating system such as some boot can be stored in the first non-volatile memory cells, also namely, the first non-volatile memory cells stores and makes notebook computer switch to the necessary data of the second state.

In specific implementation process, the notebook computer provided due to the embodiment of the present invention comprises the first non-volatile memory cells, first non-volatile memory cells can guarantee when being in the state of not being powered that the data self stored are not lost, so notebook computer is in the source program data being obtained operating system by data-interface, and in the first non-volatile memory cells, run the source program data of this operating system, thus after switching to the second state, after the connection of the disconnection of technology notebook computer and this memory storage or another electronic equipment, this notebook computer still can maintain the second state.

In specific implementation process, the second state of operation system is switched at notebook computer, and after the connection of disconnection and memory storage or another electronic equipment, the information processing method that the embodiment of the present invention provides also comprises: in the second condition, obtains the second instruction; Based on the second instruction, electronic equipment switches to the third state of not operation system, and wherein, in a third condition, Nonvolatile memory is in the state of not being powered, and stores system operation data during operating system in the first non-volatile memory cells; In a third condition, the 3rd instruction is obtained; According to the 3rd instruction, according to the system operation data during operating system stored in the first non-volatile memory cells, electronic equipment switches to the second state.

Namely specifically, the second instruction can be standby command, and be in the second state also under normal operating conditions at notebook computer, notebook computer obtains standby command, notebook computer is after acquisition standby command, namely the third state of not operation system can be switched to, namely this third state is holding state, certainly, before notebook computer switches to holding state, can by notebook computer when the second state, system operation data when linux system runs is stored in the first non-volatile memory cells, owing to still can guarantee that the data self stored are not lost when the first non-volatile memory cells is in and is not powered state, so when notebook computer is in the third state, first non-volatile memory cells is in the state of not being powered, but the system operation data still stored in the first non-volatile memory cells when linux system runs.

Time under notebook computer is in the third state, obtain the 3rd instruction, the 3rd instruction can be wake instruction up, wakes instruction up according to this, and the system operation data of the first linux system stored in non-volatile memory cells when running, notebook computer can switch to the second state.

Can find out, due in a third condition, first non-volatile memory cells is in the state of not being powered, and can guarantee that the data self stored are not lost, so when notebook computer is in the third state, first non-volatile memory cells can be in the state of not being powered, the follow-up state of notebook computer can not be affected switch simultaneously, so to avoid in prior art when notebook computer is in holding state, need to be the defect of the internal memory continued power of notebook computer always, thus achieve the technique effect of the energy consumption reducing notebook computer.

Certainly, it should be noted that, in actual applications, notebook computer obtains the source program data of operating system from a memory storage or another electronic equipment can Exactly-once, this notebook computer follow-up namely can according to the source program data operation system of this operating system, simultaneously because when being in and not being powered state, the first non-volatile memory cells still can guarantee that the data self stored are not lost, as long as so do not wipe the data in content when follow-up notebook computer cuts out, just can start according to the data in the first non-volatile memory cells when then notebook computer starts next time, thus accelerate the start-up time of notebook computer, realize the technique effect of the energy consumption reducing notebook computer.

In specific implementation process, except under two kinds of different situations of above-mentioned introduction, notebook computer switches to outside normal operating conditions by the source program data of operating system by off-mode, notebook computer can also by the system operation data stored in the first non-volatile memory cells, and notebook computer switches to normal operating conditions.

Specifically, also namely the first state except can be except off-mode, it can also be holding state, in the standby state, system operation data during operating system is stored in first non-volatile memory cells, it can be such as system operation data during Windows system or linux system etc. the operating system of preceding sections introduction, and do not need to be continuously the first non-volatile memory cells to expend electricity to guarantee the data wherein stored and do not lose, receive in namely the first instruction also wake instruction up at notebook computer, namely can and the first non-volatile memory cells in the system operation data that stores, switch to normal operating conditions.

In specific implementation process, at notebook computer based on the first instruction, after switching to the second state of operation system, the information processing method that the embodiment of the present invention provides also comprises:

Be in the second state at electronic equipment, and operating system to first mode time, obtain the 4th instruction; Based on the 4th instruction, electronic equipment switches to the 4th state of not operation system, wherein, under the 4th state, first non-volatile memory cells is in the state of not being powered, store the first mode information of this operating system when moving to first mode in first non-volatile memory cells, to make electronic equipment when switching to the second state by the 4th state, can according to first mode information by operating system to first mode.

Specifically, also namely normal operating conditions is at notebook computer, and operating system to first mode time, notebook computer obtains the 4th instruction, also namely pattern is held instruction, after acquisition model is held instruction, switch to the 4th state of not operation system at notebook computer before, the operating system of notebook computer storing notebook computer in the first non-volatile memory cells is to first mode information during first mode, such as can store operating system to first mode information during first mode by the mode of a form, the 4th state of not operation system is switched at notebook computer, also after being pattern preservation state, in this fourth state, first non-volatile memory cells is in the state of not being powered, and store this operating system to first mode information during first mode, other unit of this notebook computer are also in the state of not being powered simultaneously, like this, at notebook when switching to the second state by the 4th state, after the os starting of notebook computer, namely notebook computer gets the first mode information of the storage in the first non-volatile memory cells, by operating system to first mode, and corresponding code need not be performed again could by operating system to first mode, save relevant execution step, thus notebook computer can rapidly by operating system recovery to first mode, save the time.

Situation two: notebook computer comprises the second non-volatile memory cells.

Notebook computer is switched to the second state process by the first state is described in detail in embodiment one, and concrete processing procedure is in the present embodiment consistent with the principle introduced in previous embodiment, has just repeated no more at this.

In the present embodiment, second non-volatile memory cells can be the external memory storages such as mechanical hard disk, solid state hard disc or flash memory, the source program data of this operating system is stored in second non-volatile memory cells, the read or write speed of the second non-volatile memory cells is lower than the read or write speed of the first non-volatile memory cells, in a first state, second non-volatile memory cells is in the state of not being powered, and in the second condition, the second non-volatile memory cells is in the state of being powered.

In specific implementation process, also the source program data of this operating system is stored in first non-volatile memory cells, when notebook computer meets a predetermined condition, the information processing method that the embodiment of the present invention provides also comprises: the source program data of deleting the operating system stored in the first non-volatile memory cells, and the source program data of the operating system stored in the second non-volatile memory cells is copied in the first non-volatile memory cells.

Specifically, when notebook computer meets predetermined condition, the monitoring modular of such as notebook computer is when determining that notebook computer meets this predetermined condition, such as at the timer determination notebook computer of notebook computer when a preset time period is as switched to the second state according to the source program data of the operating system stored in the first non-volatile memory cells in 10S, namely determine that notebook computer meets predetermined condition, or the operating system of notebook computer is when detecting that the source program data of the operating system stored in the first non-volatile memory cells is upgraded unsuccessfully, namely determine that notebook computer meets predetermined condition, thus the source program data of the operating system stored in the first non-volatile memory cells can be deleted, and the source program data of the operating system stored in the second non-volatile memory cells is copied in the first non-volatile memory cells.

Such as, the source program data of Windows system is stored in first non-volatile memory cells, also the source program data of Windows system is stored in second non-volatile memory cells, when notebook computer meets predetermined condition, then can delete the source program data of the Windows system stored in the first non-volatile memory cells, and the source program data of the Windows system stored in the second non-volatile memory cells is copied to the first non-volatile memory cells, also the source program data of the operating system stored in the first non-volatile memory cells is namely substituted with the source program data of the operating system stored in the second non-volatile memory cells, thus recover the source program data of the Windows system stored in the first non-volatile memory cells, make notebook computer can switch to the second state according in the first non-volatile memory cells, that is, notebook computer is when the source program data of the Windows system of the first non-volatile memory cells makes a mistake, can by the source program data of the Windows system of the second non-volatile memory cells, switch to rapidly the second state, thus ensure that the reliability of notebook computer, just repeat no more at this.

Of course, what introduce in the present embodiment is the source program data of operating system, and the source program data of application program is also similar with it, has just repeated no more at this.

Based on same inventive concept, the embodiment of the present invention also provides a kind of electronic equipment, please refer to Fig. 2, Fig. 2 is the functional block diagram of the electronic equipment that the embodiment of the present invention provides, as Fig. 2, this electronic equipment comprises: the first non-volatile memory cells 201, first non-volatile memory cells 201 at least can store system operation data during operating system when operating system; Processing unit 202, be connected with the first non-volatile memory cells 201, for when being in the first state of not operation system at electronic equipment, obtain the first instruction, wherein, first non-volatile memory cells 201 is in the state of not being powered in a first state, and based on the first instruction, electronic equipment switches to the second state of operation system, wherein, in the second condition, the first non-volatile memory cells 201 is in the state of being powered, and at least stores system operation data during operating system in the first non-volatile memory cells 201.

In specific implementation process, in electronic equipment, the read or write speed of the storage unit that read or write speed is the slowest exceedes first threshold.

In specific implementation process, electronic equipment does not comprise the non-volatile memory cells of the source program data for separate, stored operating system and/or application program.

In specific implementation process, processing unit 202 specifically for the source program data of operation system in the first non-volatile memory cells 201, thus switches to the second state.

In specific implementation process, the first non-volatile memory cells 201 comprises first area and second area, and wherein, first area is for storing the source program data of operating system, and second area is used for storage system service data; Processing unit 202 is specifically for reading and running the source program data of the operating system stored in first area, generation system service data, and wherein, system operation data stores in the second area.

In specific implementation process, processing unit 202 is specifically for being stored in system operation data in range of physical addresses corresponding to second area.

In specific implementation process, when not storing the source program data of operating system in the first non-volatile memory cells 201, processing unit 202 is specifically for passing through data-interface, obtain the source program data of operating system, and in the first non-volatile memory cells 201 source program data of operation system, thus switch to the second state.

In specific implementation process, processing unit 202 is specifically for being connected with a memory storage by data-interface, and the source program data of the operating system stored in read storage device, thus obtain the source program data of operating system, or established a communications link by data-interface and another electronic equipment, and received the source program data of the operating system that another electronic equipment sends by communication connection, thus obtain the source program data of operating system.

In specific implementation process, switch to the second state of operation system at electronic equipment, and after the connection of disconnection and memory storage or another electronic equipment, electronic equipment maintains the second state.

In specific implementation process, the second state of operation system is switched at electronic equipment, and after the connection of disconnection and memory storage or another electronic equipment, processing unit 202 is specifically in the second condition, obtain the second instruction, and based on the second instruction, electronic equipment switches to the third state of not operation system, wherein, in a third condition, first non-volatile memory cells 201 is in the state of not being powered, system operation data during operating system is stored in first non-volatile memory cells 201, and in a third condition, obtain the 3rd instruction, and according to the 3rd instruction, according to the system operation data during operating system stored in the first non-volatile memory cells 201, electronic equipment switches to the second state.

In specific implementation process, the first state is at electronic equipment, and when storing system operation data in the first non-volatile memory cells 201, processing unit 202 is specifically for the system operation data according to storage in the first non-volatile memory cells 201, and electronic equipment switches to the second state.

In specific implementation process, based on the first instruction, after electronic equipment switches to the second state of operation system, processing unit 202 concrete also for be in the second state at electronic equipment and operating system to first mode time, obtain the 4th instruction, and based on the 4th instruction, electronic equipment switches to the 4th state of not operation system, wherein, under the 4th state, first non-volatile memory cells 201 is in the state of not being powered, the first mode information of operating system when moving to first mode is stored in first non-volatile memory cells 201, to make electronic equipment when switching to the second state by the 4th state, can according to first mode information by operating system to first mode.

In specific implementation process, electronic equipment also comprises the second non-volatile memory cells 203, the source program data of operating system is stored in second non-volatile memory cells 203, the read or write speed of the second non-volatile memory cells 203 is lower than the first non-volatile memory cells 201, wherein, in a first state, the second non-volatile memory cells 203 is in the state of not being powered, in the second condition, the second non-volatile memory cells 203 is in the state of being powered.

In specific implementation process, the source program data of operating system is stored in first non-volatile memory cells 201, when electronic equipment meets a predetermined condition, processing unit 202 is concrete also for deleting the source program data of the operating system stored in the first non-volatile memory cells 201, and the source program data of the operating system stored in the second non-volatile memory cells 203 is copied in the first non-volatile memory cells 201.

In specific implementation process, electronic equipment also comprises a monitoring modular, this monitoring modular is used for determining that electronic equipment cannot switch to the second state according to the source program data of the operating system stored in the first non-volatile memory cells in a preset time period, or when detecting that the source program data of the operating system stored in the first non-volatile memory cells is upgraded unsuccessfully, determine that electronic equipment meets predetermined condition.

The embodiment of the present invention also provides a kind of electronic equipment on the other hand, and please refer to Fig. 3, Fig. 3 is the entity module figure of the electronic equipment that the embodiment of the present invention provides, and as shown in Figure 3, this electronic equipment comprises:

Casing 301;

Circuit board 302, is arranged in casing 301;

First nonvolatile memory 303, is arranged in casing 301, and the first nonvolatile memory 301 at least can store system operation data during operating system when operating system;

Processor 304, be arranged on circuit board 302, be connected with the first nonvolatile memory 303, during for being in the first state of not operation system at electronic equipment, obtain the first instruction, wherein, first nonvolatile memory 303 is in the state of not being powered in a first state, and based on the first instruction, electronic equipment switches to the second state of operation system, wherein, in the second condition, first nonvolatile memory 303 is in the state of being powered, system operation data during operating system is at least stored in first nonvolatile memory 303.

Electronic equipment in the present embodiment and the information processing method in previous embodiment are based on two aspects under same inventive concept, detailed description is done to the implementation process of method above, so those skilled in the art can according to the structure of the electronic equipment in aforementioned understanding the present embodiment be described clearly and implementation process, succinct in order to instructions, has just repeated no more at this.

Technical scheme in the invention described above embodiment, at least has following technique effect or advantage:

Those skilled in the art should understand, embodiments of the invention can be provided as method, system or computer program.Therefore, the present invention can adopt the form of complete hardware embodiment, completely software implementation or the embodiment in conjunction with software and hardware aspect.And the present invention can adopt in one or more form wherein including the upper computer program implemented of computer-usable storage medium (including but not limited to magnetic disk memory, CD-ROM, optical memory etc.) of computer usable program code.

The present invention describes with reference to according to the process flow diagram of the method for the embodiment of the present invention, equipment (system) and computer program and/or block scheme.Should understand can by the combination of the flow process in each flow process in computer program instructions realization flow figure and/or block scheme and/or square frame and process flow diagram and/or block scheme and/or square frame.These computer program instructions can being provided to the processor of multi-purpose computer, special purpose computer, Embedded Processor or other programmable data processing device to produce a machine, making the instruction performed by the processor of computing machine or other programmable data processing device produce device for realizing the function of specifying in process flow diagram flow process or multiple flow process and/or block scheme square frame or multiple square frame.

These computer program instructions also can be stored in can in the computer-readable memory that works in a specific way of vectoring computer or other programmable data processing device, the instruction making to be stored in this computer-readable memory produces the manufacture comprising command device, and this command device realizes the function of specifying in process flow diagram flow process or multiple flow process and/or block scheme square frame or multiple square frame.

These computer program instructions also can be loaded in computing machine or other programmable data processing device, make on computing machine or other programmable devices, to perform sequence of operations step to produce computer implemented process, thus the instruction performed on computing machine or other programmable devices is provided for the step realizing the function of specifying in process flow diagram flow process or multiple flow process and/or block scheme square frame or multiple square frame.

Specifically, the computer program instructions that information processing method in the embodiment of the present application is corresponding can be stored in CD, hard disk, on the storage mediums such as USB flash disk, read by an electronic equipment when the computer program instructions corresponding with information processing method in storage medium or when being performed, comprise the steps:

When described electronic equipment is in the first state of not operation system, obtain the first instruction, wherein, described first non-volatile memory cells is in the state of not being powered in said first condition;

Based on described first instruction, described electronic equipment switches to the second state of the described operating system of described operation, wherein, in said second condition, described first non-volatile memory cells is in the state of being powered, and at least stores described system operation data during described operating system in described first non-volatile memory cells.

Alternatively, other computer instruction is also stored in described storage medium, when storing the source program data of described operating system in described first non-volatile memory cells, these computer instructions are step: described electronic equipment switches to the second state running described operating system and is performed, and comprises the steps: when being performed

Also store other computer instruction in described storage medium, these computer instructions are step: described electronic equipment runs the source program data of described operating system in described first non-volatile memory cells, comprises the steps: when being performed

Described electronic equipment reads and runs in described first area the source program data of the described operating system stored, and generates described system operation data, and wherein, described system operation data is stored in described second area.

Alternatively, other computer instruction is also stored in described storage medium, these computer instructions are step: described system operation data is stored in described second area, comprise the steps: that described system operation data is stored in range of physical addresses corresponding to described second area when being performed.

Alternatively, other computer instruction is also stored in described storage medium, when not storing the source program data of described operating system in described first non-volatile memory cells, these computer instructions are step: described electronic equipment switches to the second state running described operating system, comprises the steps: when being performed

Described electronic equipment, by data-interface, obtains the source program data of described operating system, and run the source program data of described operating system in described first non-volatile memory cells, thus switch to described second state.

Alternatively, also store other computer instruction in described storage medium, these computer instructions are step: described electronic equipment, by data-interface, obtaining the source program data of described operating system, comprising the steps: when being performed

Described electronic equipment is connected with a memory storage by described data-interface, and reads in described memory storage the source program data of the described operating system stored, thus obtains the source program data of described operating system; Or

Described electronic equipment is established a communications link by described data-interface and another electronic equipment, and receives the source program data of the described operating system that another electronic equipment described sends by described communication connection, thus obtains the source program data of described operating system.

Alternatively, other computer instruction is also stored in described storage medium, the second state running described operating system is switched at described electronic equipment, and after the connection of disconnection and described memory storage or another electronic equipment described, these computer instructions comprise the steps: when being performed

In said second condition, the second instruction is obtained;

Based on described second instruction, described electronic equipment switches to the third state not running described operating system, wherein, under the described third state, described first non-volatile memory cells is in the state of not being powered, and stores described system operation data during described operating system in described first non-volatile memory cells;

Under the described third state, obtain the 3rd instruction;

According to described 3rd instruction, according to described system operation data during the described operating system stored in described first non-volatile memory cells, described electronic equipment switches to described second state.

Alternatively, other computer instruction is also stored in described storage medium, described first state is at described electronic equipment, and when storing described system operation data in described first non-volatile memory cells, these computer instructions are step: described electronic equipment switches to the second state running described operating system, comprises the steps: when being performed

Alternatively, also store other computer instruction in described storage medium, described based on described first instruction, after described electronic equipment switches to the second state running described operating system, these computer instructions comprise the steps: when being performed

Described electronic equipment be in described second state and described operating system to first mode time, obtain the 4th instruction;

Based on described 4th instruction, described electronic equipment switches to the 4th state of not operation system, wherein, under described 4th state, described first non-volatile memory cells is in the state of not being powered, the first mode information of described operating system when moving to described first mode is stored in described first non-volatile memory cells, to make described electronic equipment when switching to described second state by described 4th state, can according to described first mode information by described operating system extremely described first mode.

Alternatively, other computer instruction is also stored in described storage medium, store the source program data of described operating system in described first non-volatile memory cells, when described electronic equipment meets a predetermined condition, these computer instructions comprise the steps: when being performed

Delete the source program data of the described operating system stored in described first non-volatile memory cells, and the source program data of the described operating system stored in described second non-volatile memory cells is copied in described first non-volatile memory cells.

Obviously, those skilled in the art can carry out various change and modification to the present invention and not depart from the spirit and scope of the present invention.Like this, if these amendments of the present invention and modification belong within the scope of the claims in the present invention and equivalent technologies thereof, then the present invention is also intended to comprise these change and modification.

Claims

1. an information processing method, be applied to electronic equipment, described electronic equipment comprises the first non-volatile memory cells, and described first non-volatile memory cells at least can store system operation data during described operating system when operating system, described method comprises:

2. the method for claim 1, is characterized in that, in described electronic equipment, the read or write speed of the storage unit that read or write speed is the slowest exceedes first threshold.

3. the method for claim 1, is characterized in that, described electronic equipment does not comprise the non-volatile memory cells of the source program data for separate, stored operating system and/or application program.

4. the method as described in claim arbitrary in claim 1-3, it is characterized in that, when storing the source program data of described operating system in described first non-volatile memory cells, described electronic equipment switches to the second state running described operating system, is specially:

5. method as claimed in claim 4, it is characterized in that, described first non-volatile memory cells comprises first area and second area, wherein, described first area is for storing the source program data of described operating system, and described second area is for storing described system operation data;

Described electronic equipment runs the source program data of described operating system in described first non-volatile memory cells, be specially: described electronic equipment reads and runs in described first area the source program data of the described operating system stored, generate described system operation data, wherein, described system operation data is stored in described second area.

6. method as claimed in claim 5, it is characterized in that, described system operation data is stored in described second area, is specially:

Described system operation data is stored in range of physical addresses corresponding to described second area.

7. the method as described in claim arbitrary in claim 1-3, it is characterized in that, when not storing the source program data of described operating system in described first non-volatile memory cells, described electronic equipment switches to the second state running described operating system, specifically comprises:

8. method as claimed in claim 7, is characterized in that, described electronic equipment, by data-interface, obtains the source program data of described operating system, specifically comprises:

9. method as claimed in claim 8, it is characterized in that, switch to the second state running described operating system at described electronic equipment, and after the connection of disconnection and described memory storage or another electronic equipment described, described electronic equipment maintains described second state.

10. method as claimed in claim 8, is characterized in that, switches to the second state running described operating system at described electronic equipment, and after the connection of disconnection and described memory storage or another electronic equipment described, described method also comprises:

In said second condition, the second instruction is obtained;

Under the described third state, obtain the 3rd instruction;

11. methods as described in claim arbitrary in claim 1-3, it is characterized in that, described first state is at described electronic equipment, and when storing described system operation data in described first non-volatile memory cells, described electronic equipment switches to the second state running described operating system, is specially:

12. methods as described in claim arbitrary in claim 1-3, is characterized in that, described based on described first instruction, after described electronic equipment switches to the second state running described operating system, described method also comprises:

13. the method for claim 1, it is characterized in that, described electronic equipment also comprises the second non-volatile memory cells, the source program data of described operating system is stored in described second non-volatile memory cells, the read or write speed of described second non-volatile memory cells is lower than described first non-volatile memory cells, wherein, in said first condition, described second non-volatile memory cells is in the state of not being powered, in said second condition, described second non-volatile memory cells is in the state of being powered.

14. methods as claimed in claim 13, is characterized in that, store the source program data of described operating system in described first non-volatile memory cells, and when described electronic equipment meets a predetermined condition, described method also comprises:

15. 1 kinds of electronic equipments, comprising:

First non-volatile memory cells, described first non-volatile memory cells at least can store system operation data during described operating system when operating system;

Processing unit, be connected with described first non-volatile memory cells, for when being in the first state of not operation system at described electronic equipment, obtain the first instruction, wherein, described first non-volatile memory cells is in the state of not being powered in said first condition, and based on described first instruction, described electronic equipment switches to the second state of the described operating system of described operation, wherein, in said second condition, described first non-volatile memory cells is in the state of being powered, described system operation data during described operating system is at least stored in described first non-volatile memory cells.

16. electronic equipments as claimed in claim 15, it is characterized in that, in described electronic equipment, the read or write speed of the storage unit that read or write speed is the slowest exceedes first threshold.

17. electronic equipments as claimed in claim 15, is characterized in that, described electronic equipment does not comprise the non-volatile memory cells of the source program data for separate, stored operating system and/or application program.

18. electronic equipments as described in claim arbitrary in claim 15-17, it is characterized in that, described processing unit specifically for running the source program data of described operating system in described first non-volatile memory cells, thus switches to described second state.

19. electronic equipments as claimed in claim 18, it is characterized in that, described first non-volatile memory cells comprises first area and second area, wherein, described first area is for storing the source program data of described operating system, and described second area is for storing described system operation data;

20. electronic equipments as claimed in claim 19, is characterized in that, described processing unit is specifically for being stored in described system operation data in range of physical addresses corresponding to described second area.

21. electronic equipments as described in claim arbitrary in claim 15-17, it is characterized in that, when not storing the source program data of described operating system in described first non-volatile memory cells, described processing unit is specifically for passing through data-interface, obtain the source program data of described operating system, and in described first non-volatile memory cells, run the source program data of described operating system, thus switch to described second state.

22. electronic equipments as claimed in claim 21, it is characterized in that, described processing unit is specifically for being connected with a memory storage by described data-interface, and read in described memory storage the source program data of the described operating system stored, thus obtain the source program data of described operating system, or established a communications link by described data-interface and another electronic equipment, and received the source program data of the described operating system that another electronic equipment described sends by described communication connection, thus obtain the source program data of described operating system.

23. electronic equipments as claimed in claim 22, it is characterized in that, switch to the second state running described operating system at described electronic equipment, and after the connection of disconnection and described memory storage or another electronic equipment described, described electronic equipment maintains described second state.

24. electronic equipments as claimed in claim 22, it is characterized in that, the second state running described operating system is switched at described electronic equipment, and after the connection of disconnection and described memory storage or another electronic equipment described, described processing unit is specifically in said second condition, obtain the second instruction, and based on described second instruction, described electronic equipment switches to the third state not running described operating system, wherein, under the described third state, described first non-volatile memory cells is in the state of not being powered, described system operation data during described operating system is stored in described first non-volatile memory cells, and under the described third state, obtain the 3rd instruction, and according to described 3rd instruction, according to described system operation data during the described operating system stored in described first non-volatile memory cells, described electronic equipment switches to described second state.

25. electronic equipments as described in claim arbitrary in claim 15-17, it is characterized in that, described first state is at described electronic equipment, and when storing described system operation data in described first non-volatile memory cells, described processing unit is specifically for according to the described system operation data stored in described first non-volatile memory cells, and described electronic equipment switches to described second state.

26. electronic equipments as described in claim arbitrary in claim 15-17, it is characterized in that, described based on described first instruction, after described electronic equipment switches to the second state running described operating system, described processing unit concrete also for be in described second state at described electronic equipment and described operating system to first mode time, obtain the 4th instruction, and based on described 4th instruction, described electronic equipment switches to the 4th state of not operation system, wherein, under described 4th state, described first non-volatile memory cells is in the state of not being powered, the first mode information of described operating system when moving to described first mode is stored in described first non-volatile memory cells, to make described electronic equipment when switching to described second state by described 4th state, can according to described first mode information by described operating system extremely described first mode.

27. electronic equipments as claimed in claim 15, it is characterized in that, described electronic equipment also comprises the second non-volatile memory cells, the source program data of described operating system is stored in described second non-volatile memory cells, the read or write speed of described second non-volatile memory cells is lower than described first non-volatile memory cells, wherein, in said first condition, described second non-volatile memory cells is in the state of not being powered, in said second condition, described second non-volatile memory cells is in the state of being powered.

28. electronic equipments as claimed in claim 15, it is characterized in that, the source program data of described operating system is stored in described first non-volatile memory cells, when described electronic equipment meets a predetermined condition, described processing unit is concrete also for deleting the source program data of the described operating system stored in described first non-volatile memory cells, and the source program data of the described operating system stored in described second non-volatile memory cells is copied in described first non-volatile memory cells.

29. 1 kinds of electronic equipments, comprising:

Casing;

Circuit board, is arranged in described casing;

First nonvolatile memory, is arranged in described casing, and described first nonvolatile memory at least can store system operation data during described operating system when operating system;

Processor, be arranged on described circuit, be connected with described first nonvolatile memory, for when described electronic equipment is in the first state of not operation system, obtain the first instruction, wherein, described first nonvolatile memory is in the state of not being powered in said first condition, and based on described first instruction, described electronic equipment switches to the second state of the described operating system of described operation, wherein, in said second condition, described first nonvolatile memory is in the state of being powered, described system operation data during described operating system is at least stored in described first nonvolatile memory.